Saturday, October 24, 2015

Quantum Mechanics for Engineers




For those that have a lot of Free Time on their Mind

http://www.eng.fsu.edu/~dommelen/quantum/style_a/index.html

Wow it is amazing what is on the Web and Free too!

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Musing on the Capacitor

Image result for image of a capacitor

Silly maybe, maybe not. Millions of things have been envisioned and tested in the last few hundred years of our Electrodynamics revolution.

Yet we most often can only read about the most successful experiments or those that fit well into the current accepted belief systems of science.

So now I pick up musing I had as a child raised and working in my Father's small Radio and then Radio and TV repair shop.

And so my muse turns to the simple and lowly two plate capacitor.

It would seem that if one, say cut two one square centimeter Copper or other metal plates and attached small lead wire to them. One could put between them different insulating materials (Cardboard, Glass Plastic etc) and measure the resulting capacitance of this three element device. And from that get so idea of dielectric spacer's dielectric constant or value. As you would know the Plates area and could measure the thickness of the spacer.

So that seems straight forward and classic.
But now can one see for a given dielectric spacer  see a difference in value C or Charge or Discharge Times with differ types of metal plates?

What if the two plates have a different standard electrode potential, say like one of Copper and one of zinc or lead?
Of course a static magnetic field will deflect a moving current in it.  Yet how does or does in for XYZ orientations effect our capacitor's characteristics.

What happens if say the dielectric spacer is of two different materials with different dielectric constants ?
What happens if say you create channels or paths using the second dielectric like a printed ink pattern, line dots, spiral etc.?


>>


The simplest model capacitor consists of two thin parallel conductive plates separated by a dielectric with permittivity ε . This model may also be used to make qualitative predictions for other device geometries. The plates are considered to extend uniformly over an area A and a charge density ±ρ = ±Q/A exists on their surface. Assuming that the length and width of the plates are much greater than their separation d, the electric field near the centre of the device will be uniform with the magnitude E = ρ/ε. The voltage is defined as the line integral of the electric field between the plates
V= \int_0^d E\,\mathrm{d}z = \int_0^d \frac{\rho}{\varepsilon}\,\mathrm{d}z = \frac{\rho d}{\varepsilon} = \frac{Qd}{\varepsilon A}
Solving this for C = Q/V reveals that capacitance increases with area of the plates, and decreases as separation between plates increases.
C = \frac{\varepsilon A}{d}
The capacitance is therefore greatest in devices made from materials with a high permittivity, large plate area, and small distance between plates.
A parallel plate capacitor can only store a finite amount of energy before dielectric breakdownoccurs. The capacitor's dielectric material has a dielectric strength Ud which sets thecapacitor's breakdown voltage at V = Vbd = Udd. The maximum energy that the capacitor can store is therefore
E = \frac{1}{2}CV^2=\frac{1}{2} \frac{\varepsilon A}{d} (U_d d)^2 = \frac{1}{2} \varepsilon A d U_d^2

The maximum energy is a function of dielectric volume, permittivity, and dielectric strength. Changing the plate area and the separation between the plates while maintaining the same volume causes no change of the maximum amount of energy that the capacitor can store, so long as the distance between plates remains much smaller than both the length and width of the plates. In addition, these equations assume that the electric field is entirely concentrated in the dielectric between the plates. In reality there are fringing fields outside the dielectric, for example between the sides of the capacitor plates, which will increase the effective capacitance of the capacitor. This is sometimes called parasitic capacitance. For some simple capacitor geometries this additional capacitance term can be calculated analytically.[20] It becomes negligibly small when the ratios of plate width to separation and length to separation are large.


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Friday, October 23, 2015

Magnets and Magnetic Supplies



1) http://www.amazingmagnets.com/c-80-neodymium-magnets.aspx

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First English translation of Wilhelm Weber's Determination


The Weber:

DETERMINATIONS OF ELECTRODYNAMIC MEASURE: Concerning a Universal Law of Electrical Action by Wilhelm Weber [Treatise at the founding of the Royal Scientific Society of Saxony on the day of the 200th anniversary celebration of Leibniz's birthday, published by the Prince Jablonowski Society, Leipzig

http://www.21stcenturysciencetech.com/translations/Weber_1846.pdf


Weber,  unit of magnetic flux in the International System of Units (SI), defined as the amount of flux that, linking an electrical circuit of one turn (one loop of wire), produces in it an electromotive force of one volt as the flux is reduced to zero at a uniform rate in one second. It was named in honour of the 19th-century German physicist Wilhelm Eduard Weber and equals 108 maxwells, the unit used in the centimetre–gram–second system.
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Tesla is a unit of measurement of the strength of a magnetic field

Here is simple explanation of this unit of Magnetic strength, named after the great Doctor T himself.

PS it even has and audio file with it.

My new favorate site to play at.


>>Tesla is a unit of magnetic field.
Another unit of magnetic field is a gauss.

A refrigerator magnet is 100 gauss, a strong refrigerator magnet.

The typical strength of the Earth's magnetic field at its surface is around a half a gauss.
So those are everyday units of magnetic fields.
There are 10,000 gauss in one tesla.<<

Gauss:

>> The gauss, abbreviated as G or Gs, is the cgs unit of measurement of a magnetic field B, which is also known as the "magnetic flux density" or the "magnetic induction". It is named after German mathematician and physicist Carl Friedrich Gauss. One gauss is defined as one maxwell per square centimeter. The cgs system has been formally superseded by the SIsystem, which uses the tesla (T) as the unit for B. One gauss equals 1×10−4 tesla (100 μT) (1 T = 10000 G).<< 


Maxwell:
>>
The maxwell, abbreviated as Mx, is the compound derived CGS unit of magnetic flux. The unit was previously called a line. The unit name honours James Clerk Maxwell, who presented the unified theory of electromagnetism, and was established by the IEC in 1930.
1 maxwell = 1 gauss × cm2 = 10−8 weber
The weber is the related SI unit.
In a magnetic field of strength one gauss, one maxwell is the total flux across a surface of one square centimetre perpendicular to the field.<< 
In physics, the weber /ˈveɪbər/[1] (symbol: Wb) is the SI unit of magnetic flux. A flux density of one Wb/m2 (one weber per square metre) is one tesla.
The weber is named after the German physicistWilhelm Eduard Weber (1804–1891).

(And at last we get to something measurable)
The weber may be defined in terms ofFaraday's law, which relates a changingmagnetic flux through a loop to theelectric fieldaround the loop. A change in flux of one weber persecond will induce an electromotive force of one volt (produce an electric potential difference of one volt across two open-circuited terminals).
Officially,

Weber (unit of magnetic flux) — The weber is the magnetic flux that, linking a circuit of one turn, would produce in it an electromotive force of 1 volt if it were reduced to zero at a uniform rate in 1 second.[2]
The weber is commonly expressed in a multitude of other units:
where:

Wb = weber,
V = volt,
T = tesla,
J = joule,
m = meter,
s = second,
A = ampere,
Mx = maxwell.

Ref. https://en.wikipedia.org/wiki/Weber_(unit)


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Metal Alloys and Shapes Suppliers

CDH857 pure nickel powder 99.9

1) All kinds of metals and shapes.
http://www.speedymetals.com/

2) Not sure if useful for the small buy, but you can see whats out there in the World's marketplace'
Alibaba:
http://offer.alibaba.com/catalogs/products/CID940?src=cpm_fb&account=DPA&campaign_id=6034451022116&campaign=pc_list_rhs&ad_set_id=1444977519188&ad_set=pc_list_Minerals+&+Metallurgy_rhs&ad_id=Nickel



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MagLab, great fun, easy learning K2-College Levels




Magnet Academy is brought to you by the National High Magnetic Field Laboratory — the largest, most high-powered magnet lab in the world.
This site has way to much to offer for me to add to blog, so go play with it your self as I am only sharing a Tesla Teaser of it here.

Some 101 links:Very Visual with interactive graphs, great for any age to play with and ponder.

Sometimes the simplest view can show very deep meaning.

https://nationalmaglab.org/education/magnet-academy/watch-play/interactive/magnetic-field-around-a-wire-i



About:
The only facility of its kind in the United States, the National High Magnetic Field Laboratory (MagLab) is the largest and highest-powered magnet laboratory in the world. Every year, more than a thousand scientists from dozens of countries come to use our unique magnets with the support ofhighly experienced staff scientists and technicians. Thanks to funding from the National Science Foundation and the State of Florida, these researchers use our facilities for free, probing fundamental questions about materials, energy and life. Their findings result in more than 400 scientific publications a year in peer-reviewed journals such asNatureScience and Physical Review Letters.
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Mechanical and PowerTools, Hardware and Other of the shelf Supplies



1) Has a very very wide range of products!
http://www.mcmaster.com/


2)
http://www.northerntool.com/


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Wednesday, October 21, 2015

Mail Order Electronic Parts Suppliers



1) https://www.verical.com/

2)

3)

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Electromagnetic Waves, Surfing the WWW for Knowledge (Free that is Dude, get-some)


This will be the next Wave I try to catch, join me if you like.

http://what-when-how.com/category/electromagnetic-waves/



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An amazing Technical Learning Site to Surf Dudes !!!



I have been mining this section of Bigger Motors and Drives section.

http://what-when-how.com/motors-and-drives/general-properties-of-electric-motors-motors-and-drives/

I has just about everything one could ask about and Magnetic Circuit, from most basics of Magnetism to in-depth coverage of all materials and behavior of any Magnetic or Electromagnetic Circuit.

Good graphics, easy to understand text, detentions of all terms (in the beginning area) .
All needed mathematics, should you find a real engineering need to use them.

A yes it says Motors but it covers everything !!!!!

Where it shows the guts of many kinds of different motors, any DIYer will I think begin to see how they can reuse many of old motors bores for far more than just. Like reusing a stator as a shafted large gear even. I can not say too much good about this site, except that it can overwhelm you. Yet each file (Blog) carries a well detailed description that really helps. And the Cost is something even the Dead car afford.

Here is full Motors section of their Courses:
http://what-when-how.com/category/motors-and-drives/


And no I have not yet even peeped at the many other subjects listed below. If you do let us known!


http://what-when-how.com/
Here is full subject list. Get Get active links from link above.


what-when-how
In Depth Tutorials and Information
Topic
Online resource for In depth Information and Tutorials on many topics.Below is the list of all the topics covered on this website :



3D Animation Using Maya
8051 Microcontroller
A Brief History of Humankind
A Brief History of Organic Life
A Software Defined GPS and Galileo Receiver
ACP Medicine
Adobe Creative Suite 5 Design Premium
Adobe Dreamweaver CS5
Advanced Methods in Computer Graphics
Advances inWireless,Mobile Networks and Applications (WiMoA 2011 and ICCSEA 2011)
Aerospace Technology
Aging
Air Travel
AJAX
Analytical and Stochastic Modeling Techniques and Applications (ASMTA 2011)
Ancient Astronomy
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Animal Life
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Artificial Intelligence
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AutoCAD 2011
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Cardiac Arrhythmias–New Considerations
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Cardiomyopathies–From Basic Research To Clinical Management
Cars
CCNP ONT Exam Certification Guide
Celtic mythology and folklore
Check Point NG VPN-1/FireWall-1
Chemistry
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Cisco Voice over IP (CVOICE)
Cities of the United States
Civil Engineering
Climate Change
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Compiler Writing
Computational Intelligence in Security for Information Systems (CISIS 2011)
Computer Graphics and Geometric Modeling
Computer Network Time Synchronization
Computer Vision – From Surfaces to 3D Objects
Computer Vision,Imaging and Computer Graphics
Conspiracy Theories In American History
Cooperative Communication
Cosmic Gamma Radiation
Crankshaft
Data Communications and Networking
Dental Anatomy, Physiology and Occlusion
Deploying and Troubleshooting Cisco Wireless LAN Controllers
Digital Desktop Publishing
Digital Home Movies
Digital Imaging for Cultural Heritage Preservation
Digital Sculpting with Mudbox
Dinosaurs
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Distance Learning
Doctoring Medical Governance-Medical Self-Regulation In Transition
Dynamic Behavior of Materials
E-Discovery
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eBay
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Electric Motors
Electromagnetic Waves
Electronic Properties of Materials
Embedded Image Processing on the TMS320C6000 DSP
Endangered Species
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Engineering Applications of Residual Stress
Enterprise JavaBeans 3
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From Here To Eternity
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Golf
GPS
GPS & Galileo – Dual RF Front-end Receiver and Design, Fabrication, and Test
GPS with High Rate Sensors
Graphics and GUIs with MATLAB
Grasses
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Gulf States
Haunted Places
Hibernate
Hollywood
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Honors
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How To Build A Digital Library
Human Drug Metabolism
Hybrid Animation-Integrating 2D and 3D Assets
Induction Motor
Information Science and Technology
Insect Molecular Biology and Biochemistry
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Interactive 3D Multimedia Content
Interpersonal violence
Introduction to Computer Graphics Using Java 2D and 3D
Introduction to Video and Image Processing
Inventions
Ion Transport Across Biological Membranes
iOS 4
iPhone
iPhone 4
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IPv6 Advanced Protocols Implementation
IPv6 for Enterprise Networks
iText 5
Jack the Ripper
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Jews and Judaism
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LightWave v9
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Mechanisms of Cadmium Toxicity To Various Trophic Saltwater Organisms
Medical Informatics
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Medicine
Medieval Ireland
Melatonin,Sleep And Insomnia
Membrane Structure
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Money
HTML5: The Quick and Simple Way to Learn HTML5
HTML QuickStart Guide: The Simplified Beginner’s Guide to HTML
Programming in HTML5 with JavaScript and CSS3
HTML5 con CSS e JavaScript
Pro CSS Techniques
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Rendering HTML5 Illustration
Jump Start CSS
Realtime Web Apps: With HTML5 WebSocket, PHP, and jQuery
Learn to Code HTML and CSS: Develop and Style Websites
Refactoring HTML: Improving the Design of Existing Web Applications
Values, Units, and Colors
Selectors, Specificity, and the Cascade
HTML and XHTML
CSS3 Foundations
HTML5 Foundations
HTML5 Mastery: Semantics, Standards, and Styling
HTML5 Canvas
HTML and CSS: The Complete Reference
Intro Tutorials: HTML and CSS
Web Standards: Mastering HTML5, CSS3, and XML
HTML5 for Publishers
HTML5 in Action
Introducing HTML5
HTML5 and CSS Comprehensive
HTML5: The Missing Manual
Beginning CSS3
HTML5, JavaScript, and jQuery
Apps mit HTML5 und CSS3: Fur iPad, iPhone und Android
The CSS
HTML5 Canvas
HTML5
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HTML5
CSS Quick Syntax Reference Guide
JavaScript by Example
Test-Driven JavaScript Development
Getting Started with HTML5 WebSocket Programming
Instant HTML5 2D Platformer
Practical CSS3: Develop and Design
HTML5
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Practical JavaScript Techniques
Introducing HTML5
HOW-To: Convert PSD to HTML/CSS
Web Publishing with HTML and CSS
HTML5 Game Development Insights
HTML5 Mobile Game Development
HTML5 and JavaScript Web Apps
HTML5 and CSS3
HTML5 Programming for ASP.NET Developers
Build Windows 8 Apps with HTML5 and JavaScript
HTML Manual of Style
HTML5 with CSS3
The Definitive Guide to HTML5 WebSocket
HTML5-Apps fur iPhone und Android
JavaScript fur Eclipse-Entwickler
Head First HTML and CSS
JSF and HTML5
Metro Revealed: Building Windows 8 Apps with HTML5 and JavaScript
Web Development and Design Foundations with XHTML
HTML and XHTML: The Definitive Guide
HTML5 with Visual Studio 2012
HTML, CSS, and Dynamic HTML
HTML5 Animation with JavaScript
HTML5
HTML and CSS
CSS Reference
The Essential Guide to HTML5
CSS Essentials
Learn HTML5 and JavaScript for Android
Learning Image Processing with OpenCV
Longitudinal Registration and Shape Modeling
GIMP 2.6 for Photographers: Image Editing with Open Source Software
Advance Image Processing in Magnetic Resonance Imaging
A Practical Guide to Video and Audio Compression
RAW 101: Better Images with Photoshop and Photoshop Elements
Medical Image Processing: Advanced Fuzzy Set Theoretic Techniques
Alien Vision: Exploring the Electromagnetic Spectrum with Imaging Technology
Emerging Trends in Image Processing, Computer Vision, and Pattern Recognition
Introduction to Image Stabilization
Logic-based Nonlinear Image Processing
Novel 3D Media Technologies
Frame-by-Frame Stop Motion: The Guide to Non-Traditional Animation Techniques
Digital Geometry in Image Processing
Scientific Visualization: Uncertainty, Multifield, Biomedical, and Scalable Visualization
Introduction to Imaging from Scattered Fields
Deformable Surface 3D Reconstruction from Monocular Images
Rough Fuzzy Image Analysis: Foundations and Methodologies
Remote Sensing of Urban and Suburban Areas
The History of Visual Magic in Computers
Information Fusion in Signal and Image Processing
Control of Color Imaging Systems: Analysis and Design
Mathematische Bildverarbeitung
Essential Principles of Image Sensors
Hyperspectral Image Fusion
Cellular Automata in Image Processing and Geometry
Vision with Direction
Applications of Digital Signal Processing
Introduction to Video and Image Processing
Networked Embedded Systems
Feature Extraction and Image Processing
Fundamentals of Three-Dimensional Digital Image Processing
Java: The Fast Way
Introduction to Java Programming: Comprehensive Version
Java Closures and Lambda
HTTP Programming Recipes for Java Bots
Java: The Good Parts
Stripes…and Java Web Development is Fun Again
Beginning JavaScript
Natural Language Processing with Java
Advanced Java: EE Development with WildFly
Spring Enterprise Recipes: A Problem Solution Approach
Bitter Java
Java Concepts
Java EE 7 Development with NetBeans 8
Java EE Design Patterns
Software Development Case Studies in Java
Learn to Program with Minecraft Plugins
Beginning Java Programming: The Object-Oriented Approach
Java ME on Symbian OS
Spring Batch
Objects First with Java: A Practical Introduction Using BlueJ
iBATIS in Action
Eclipse Modeling Project: A Domain-Specific Language Toolkit
EJB 3.0 Database Persistence with Oracle Fusion Middleware 11g
Java for Beginners
Java Data Mining: Strategy, Standard, and Practice
POJOs in Action: Developing Enterprise Applications with Lightweight Frameworks
Java: How to Program Early Objects
Java
Web Services with Java
Learn Java Programming the Easy Way
Java Deployment with JNLP and WebStart
Java EE 5 Development with NetBeans 6
Java Enterprise Application Case Study
RESTful Java with JAX-RS 2.0
Java Concurrency in Practice
Crafting a Compiler
JavaScript: Novice to Ninja
Java EE 7 Development with WildFly
Data Structures and Abstractions with Java
Java 8 Recipes
Absolute Java
Beginning Java
Beginning Java 7
JavaFX Special Effects
Introduction to Java Programming
Making Java Groovy
Java
The Java Language Specification
Scripting in Java: Integrating with Groovy and JavaScript
Beginning Java 2 SDK
Learning Java Through Games
Java in a Nutshell
JavaFX 8: A Definitive Guide to Building Desktop, Mobile, and Embedded Java Clients
An Introduction to Network Programming with Java
Architektur und Entwurfsmuster der Softwaretechnik
Secure Java: For Web Application Development
Data Structures and Problem Solving Using Java
JavaFX 1.2 Application Development
Java Programming: Comprehensive Concepts and Techniques
JBoss AS 7 Development
Java Software Solutions: Foundations of Program Design
Java 8 in Action: Lambdas, Streams, and Functional-Style Programming
Developing Java Servlets
Enterprise OSGi in Action
Multimedia Introduction to Programming Using Java
JasperReports for Java Developers
Java EE 7 Developer
Java Performance: The Definitive Guide
Introducing Java EE 7
EJB 3 in Action
Java EE 7 First Look
Java Komponenten
Beginning Java 8 Language Features
Beginning Java 8 Fundamentals
Java EE 6 Development with NetBeans 7
NetBeans IDE 7
Beginning Java Google App Engine
JavaScript: Die Universelle Sprache zur Web-Programmierung
Java Application Development on Linux
Interactive Web-Based Virtual Reality with Java 3D
Java Database Programming Bible
JAVA Programming for Engineers
TCP/IP Sockets in Java Practical Guide for Programmers
Beginning Hibernate: From Novice to Professional
Java: A Beginner’s Guide
Java for COBOL Programmers
The Java Programming Language
Programmieren Spielend Gelernt mit dem Java-Hamster-Modell
Introduction to Compiler Construction in a Java World
Java Puzzlers: Traps, Pitfalls, and Corner Cases
The Definitive Guide to Java Swing
Java Network Programming
A Concise and Practical Introduction to Programming Algorithms in Java
Java SOA
Java 8 Lambdas
Advanced Topics in Java: Core Concepts in Data Structures
Learn Java for Web Development
Data Structures and Algorithm Analysis
Building Java Programs: A Back to Basics Approach
Programmieren lernen mit Java
Beginning Java with WebSphere
Java Programming: From Problem Analysis to Program Design
JUnit in Action
Java Coding Guidelines
The Java EE 6 Tutorial: Advanced Topics
JavaFX: Developing Rich Internet Applications
Java 6
Applied Java Patterns
JavaMail API
Beginning JavaScript
Pro Java EE Spring Patterns
JavaTech: An Introduction to Scientific and Technical Computing with Java
Design Patterns Java
Java Examples in a Nutshell
JMX in Action
Beginning J2ME: From Novice to Professional
Java 7 for Absolute Beginners
IntelliJ IDEA in Action
OSGi in Action
Java 2 Micro Edition Application Development
An Introduction to Graphical User Interfaces with Java Swing
SCJD Exam with J2SE 5
SCJP Sun Certified Programmer for Java Platform SE6
Java in 60 Minutes a Day
Beginning Java ME Platform
Mortgages
Motion Graphic Titling for Film,Video and the Web
Motion Pictures
Motors And Drives
Multithreaded Programming with JAVA
Music
Myeloproliferative Neoplasms
Nanoscience and Nanotechnology
Native Americans
Natural Antioxidants In Foods
Nature
Networking
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Neuroanaesthesia and Neurointensive Care
Neurological Disorders
Neuroscience
New Jersey
Nikon D300s
Non-Traditional Animation Techniques
Novel Strategies In Ischemic Heart Disease
Nucleic Acid Synthesis
Nursing
Open Source Flash Development
OpenGL Programming Guide
Optical Measurements,Modeling and Metrology
Oracle Warehouse Builder 11gR2
Orchids
Organic Chemistry Laboratory Survival Manual
Pageants
Paramedic Care
Parkinson’s disease
Pattern Recognition and Image Analysis
Pattern Recognition and Machine Intelligence
People
Personal Computer
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Photoshop Elements
Physicists
Physics
PIC Microcontroller
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Portal Technologies and Applications
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Privacy
Propaganda and Mass Persuasion
Protein Folding
Protein Structure
Protein Synthesis
Proteomics
Protostomes
Public Choice
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QOS-Enabled Networks
Radial Velocities In The Zodiacal Dust Cloud
Religious Movements
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Renaissance
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Roaming in Wireless Networks
Rocket Motor
Schizophrenia
Science
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Silverlight For Windows Phone
Social and Cultural Anthropology
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SOCIOLOGY
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Sphingolipids as Signaling and Regulatory Molecules
sports
Spring Framework 3
Statistics
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Tuesday, October 20, 2015

Introduction to Magnetic Particle Inspection Course (Recommended Reading)



|A very complete course that also gives a good grounding in Magnetics, yet is east to read and follow.
https://www.nde-ed.org/EducationResources/CommunityCollege/MagParticle/cc_mpi_index.php




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Testing Practices
Dry Particles
Wet Suspension
Magnetic Rubber
Continuous & Residual Magnetization
Field Direction & IntensityL/D Ratio 
Process ControlParticle Concentration
Suspension ContaminationElectrical SystemLightingEye Considerations
Example IndicationsVisible, Dry IndicationsFluorescent, Wet Indications
Quizzes20 Question MT Quiz
35 Question MT Quiz
50 Question MT Quiz
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